Containerized Battery Energy Storage System   

• All-in-one Design
• Cell: LFP batteries
• Max. Capacity: 2007kWh
• Max. Power: 1000kW

   Key Parameters   

Cell: LFP

Max. Capacity: 2007kWh

Max. Power: 1000kW

Rated Grid Voltage:AC400V, 3P4W+PE

Communication Interface & Protocol: Ethernet, Modbus TCP/IP

Size: 6058mm*2438mm*2896mm

   Applications   

Peak-Load Shifting

Benefit from the Time-of -Use Tariff

Microgrid for Islands and Remote Areas

Power Expansion

Renewable Energy Integration

Backup Power

EnerCube Battery Energy Storage System is launched by 1stess team with 15 years of electrochemical energy storage R&D and application experience, which adopts All-in-One design and integrates battery module, PCS, PDU, FSS, TCS, MPPT into the 20ft container and is suitable for the most demanding of industrial and commercial applications.

   Product technical parameters   

   EnerCube Containerized Battery Energy Storage System   

The EnerCube Battery Energy Storage System represents a milestone in high-safety integrated energy storage solutions, developed by the 1stess team with over 15 years of experience in battery energy storage R&D and applications. Tailored for user-side energy storage needs, it excels in various scenarios such as C&I emergency power, peak-load shifting, system capacity expansion, and enhancing the stability of renewable energy power output.

The innovative product structure design allows for a 50% reduction in the delivery cycle of EnerCube. Moreover, the unique modular design ensures separate module operation, so maintenance of one module does not interfere with the normal operation of others or cause downtime for the entire system, thereby increasing system availability.

Adhering to strict production management standards aligned with ISO quality, environmental, and occupational health and safety requirements, the EnerCube Battery Energy Storage System undergoes rigorous testing and commissioning processes before customer delivery. This approach not only saves on-site construction and operational costs but also ensures safe, efficient, and seamless energy utilization.

Revolutionizing Industrial Energy Storage with Adaptive Solutions

   Application Scenarios   

Peak Shaving & Cost Optimization

Designed for industrial and commercial users, the system reduces energy expenses by 30–40% through intelligent load shifting. It stores low-cost off-peak electricity and discharges during peak tariffs, aligning with time-of-use (TOU) pricing structures like those incentivized in California’s NEM 3.0 policy.Factories and data centers leverage its rapid (<100ms) grid response to avoid demand charges while maintaining operational continuity

Renewable Energy Integration

The DC-coupled architecture enables seamless integration with solar/wind farms, eliminating curtailment losses. A case study in Thailand demonstrated 98% renewable self-consumption by pairing the system with photovoltaic arrays. Its 2796kWh capacity ensures stable output during cloudy or low-wind periods, supporting microgrids in remote islands and off-grid industrial parks

Mission-Critical Backup Power

Hospitals, semiconductor fabs, and telecom base stations rely on its dual-mode operation (grid-tied/off-grid auto-switch) for 99.999% uptime. During Texas’ 2023 grid crisis, similar systems provided 72+ hours of emergency power to medical facilities

EV Charging Infrastructure Support

By balancing grid load and reducing demand charges, the system optimizes fast-charging stations in urban hubs. Its 500kW–1.29MW power range supports high-traffic EV fleets without grid upgrades

Core Functional Advantages

Military-Grade Safety & Reliability

• Utilizes automotive-grade LFP batteries with BYD blade-cell technology, achieving 8,000+ cycles and 10-year lifespan.
• Multi-layer protection: Cell-level fuses, Novec1230 fire suppression, and IP55-rated enclosures pass 100+ safety tests and IEC/UL certifications.
• Liquid cooling maintains stable operation in -25°C to 55°C environments, validated in Canadian oil sands projects

Scalable & Flexible Architecture

• Modular units scale from 860kWh to multi-MWh configurations, enabling phased investments for growing enterprises.
• Cluster balancing technology eliminates passive circulation between battery racks, ensuring 100% capacity utilization

Smart Grid Interactivity

• Cloud-based EMS provides real-time SoC monitoring, predictive maintenance, and participation in frequency regulation markets.
• Achieves ≥90% round-trip efficiency with <100ms grid switching, meeting FFR (Fast Frequency Response) requirements

Plug-and-Play Deployment

Pre-engineered containerization reduces on-site installation time by 50%, with standardized dimensions (6058×2438×2896mm) compatible with global logistics

Market Environment & Strategic Positioning

Policy-Driven Growth

• China’s “dual-carbon” strategy and EU’s Green Deal mandate energy storage adoption for renewable integration. Saudi Arabia’s Vision 2030 projects position the EnerCube-32 as a key player in emerging markets.
• Incentives like $0.03\text{–}$0.08/kWh subsidies in Asia-Pacific enhance ROI for TOU arbitrage projects

Technological Convergence

• LFP battery costs dropped 18% YoY, narrowing payback periods to 6–8 years—competitive with diesel generators.
• Open API architecture integrates with DERMS platforms, blockchain P2P trading, and IoT-enabled smart factories

Market Projections

• Global C&I storage demand will reach 44GW by 2027, driven by data center expansion and manufacturing electrification.
• Frequency regulation markets are projected to generate $12B annually by 2025, where the system’s rapid response capability creates revenue streams